在$\eta\pi$-Photoproduction中搜索$N$(1685)

arXiv: Nuclear Experiment Pub Date : 2019-11-05 DOI:10.1051/EPJCONF/202024101019

D. Werthmüller

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引用次数: 1

摘要

推测的重子反十重子的核样成员$N(1685)$为在中子产生的$\eta$ -光的总横截面上观察到的$W = 1.68$ GeV周围的窄峰结构提供了一种可能的解释。如果这个重子存在，它很可能也会出现在其他反应中。虽然前面提到的峰，不管它的性质是什么，已经被几个实验证实了，但在其他反应和可观测物中$N(1685)$的特征主要是由V. Kuznetsov等人使用GRAAL数据提出的。他们最新的研究表明，在所有的同位旋通道$\eta\pi$ -光产生中，质子和中子都有$N(1685)$电荷态的信号。这篇文章用来自A2 at MAMI实验的数据来挑战这些说法，该实验使用的光子束能量为$E_{\gamma}$ =1.43-1.58 GeV。研究了氢靶产生的$\eta\pi^0p$和$\eta\pi^+n$最终状态，并测试了新的分析切割，以增强可能的信号。

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Search for the $N$(1685) in $\eta\pi$-Photoproduction

The nucleon-like member $N(1685)$ of the speculative baryon antidecuplet denotes one possible explanation for the narrow peak-structure around $W = 1.68$ GeV observed in the total cross section of $\eta$-photoproduction off the neutron. If this baryon existed, it would likely to be seen in other reactions as well. While the aforementioned peak, whatever its nature is, was confirmed by several experiments, claims for signatures of the $N(1685)$ in other reactions and observables are mainly made by V. Kuznetsov et al. using GRAAL data. Their latest work suggests signals of both $N(1685)$ charge states in all isospin channels of $\eta\pi$-photoproduction off the proton and neutron. This contribution reports on challenging these claims with data from the A2 at MAMI experiment employing photon beam energies from $E_{\gamma}$=1.43-1.58 GeV. The $\eta\pi^0p$ and $\eta\pi^+n$ final states produced from a hydrogen target were studied and new analysis cuts were tested in order to enhance a possible signal.

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arXiv: Nuclear Experiment

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